We investigated the role of the hyperpolarization-activated mixed cation current, I(H), in the control of spontaneous action potential firing of rat cerebellar Purkinje neurons in brain slices. Extracellular recordings revealed that the continual action potential firing of Purkinje neurons was disrupted by the pharmacological blockade of I(H). Blockade of IH revealed spontaneous transitions between periods of tonic action potential firing and quiescence, without effects on the frequency or variance of action potential generation. Whole-cell recordings revealed that blockade of I(H) unmasked a form of membrane potential bistability, where transitions between tonic firing and quiescent states (separated by similar to20 mV) were evoked by exci...
A recent controversy has emerged concerning the existence of long pauses, presumably refl ecting bis...
In vitro, cerebellar Purkinje cells can intrinsically fire action potentials in a repeating trimodal...
The processing of synaptic potentials by neuronal dendrites depends on both their passive cable prop...
We investigated the role of the hyperpolarization-activated mixed cation current, IH, in the control...
Dendrites receive most of the synaptic input to the neuron, but their contribution to synaptic integ...
In 1963, Hodgkin and Huxley obtained the Nobel Prize to have shown that the electrical activity of a...
Dendrites receive most of the synaptic input to the neuron, but their contribution to synaptic integ...
Recent studies have demonstrated that the membrane potential of Purkinje cells is bi-stable and that...
In neurons with large dendritic arbors, the postsynaptic potentials interact in a complex manner wit...
1. The mechanism underlying a novel form of input signal amplification and bistability was investiga...
Cerebellar Purkinje cells are known to receive strong excitatory input from two major pathways origi...
Intracellular electrophysiological recordings in current- and voltage-clamp mode were obtained from ...
The hyperpolarization-activated cation current (Ih) plays an important role in determining membrane ...
The coexistence of neuronal activity regimes has been reported under normal and pathological conditi...
SummaryAn axon is thought to faithfully conduct action potentials to its terminals. However, many fe...
A recent controversy has emerged concerning the existence of long pauses, presumably refl ecting bis...
In vitro, cerebellar Purkinje cells can intrinsically fire action potentials in a repeating trimodal...
The processing of synaptic potentials by neuronal dendrites depends on both their passive cable prop...
We investigated the role of the hyperpolarization-activated mixed cation current, IH, in the control...
Dendrites receive most of the synaptic input to the neuron, but their contribution to synaptic integ...
In 1963, Hodgkin and Huxley obtained the Nobel Prize to have shown that the electrical activity of a...
Dendrites receive most of the synaptic input to the neuron, but their contribution to synaptic integ...
Recent studies have demonstrated that the membrane potential of Purkinje cells is bi-stable and that...
In neurons with large dendritic arbors, the postsynaptic potentials interact in a complex manner wit...
1. The mechanism underlying a novel form of input signal amplification and bistability was investiga...
Cerebellar Purkinje cells are known to receive strong excitatory input from two major pathways origi...
Intracellular electrophysiological recordings in current- and voltage-clamp mode were obtained from ...
The hyperpolarization-activated cation current (Ih) plays an important role in determining membrane ...
The coexistence of neuronal activity regimes has been reported under normal and pathological conditi...
SummaryAn axon is thought to faithfully conduct action potentials to its terminals. However, many fe...
A recent controversy has emerged concerning the existence of long pauses, presumably refl ecting bis...
In vitro, cerebellar Purkinje cells can intrinsically fire action potentials in a repeating trimodal...
The processing of synaptic potentials by neuronal dendrites depends on both their passive cable prop...